Sample and Hold Model 9752 Assembly and Using Manual

Sample and Hold
Model 9752
Assembly and Using Manual
This second-generation 9700-series
processing element for modular sound
synthesizers is designed to provide great
sound and excellent value.
The 9752 monitors the input signal voltage
and copies it to the output, synchronized to
changes in an input control voltage (CV) or
an input clock, or synchronized to an
internal clock if there is no external input.
The input may be an audio or control
signal. One typical application uses noise
as an input signal and a variable rate clock
to control sampling. This provides a
random control voltage source from the
module output.
The module's use with audio signals is
enhanced by a switch option to change the
function from "sample and hold" to "gate
and hold", where the output tracks the
input signal as long as the control input
voltage is above a threshold (or, if
selected, the internal clock rises). After the
control voltage drops, the output voltage
freezes until the next high-going transition
of the control voltage (or the internal clock
rises again).
This high-performance module is designed
to be compatible with most modular
synthesizer systems with little or no
modification. Most active components are
already mounted, making assembly a
snap.
© 2009 PAiA Corporation
ASSEMBLING THE 9752 Sample and Hold
Before beginning assembly, go through the manual. Look at the drawings.
Feel the parts. You're naturally eager to plunge right in, but take a few
deep breaths first. Check the parts supplied against the packing list at the
back of this manual.
In some cases, notes packed with the parts will be used to call your attention
to special situations. If parts are missing, please notify PAiA at
[email protected] or by phone at (405) 340-6300, fax (405) 340-6378. A
NOTES page is included at the end of this manual.
Notice that each step in the manual is marked with a checkoff box like this:
DESIGNATION
( ) R27
DESC.
100ohm
MARKING
brn-blk-brn-gld
Checking off each step as you do it may seem silly and ritualistic, but it greatly
decreases the chance of omitting a step and also provides some gratification
and reward as each step is completed.
Numbered figures are printed in the Illustrations Supplement in the center of
this manual. These pages may be removed for easy reference during
assembly.
THE CIRCUIT BOARD
The 9752 Sample and Hold is built on a double-sided circuit board. Note the
“top” side of the board has the connector and control placement designators.
Surface-mounted components are on the “bottom” of the board. Install parts
to the top of the board and solder them on the bottom.
TOOLS
You'll need a minimum of tools to assemble the kit – a small pair of diagonal
wire cutters, pliers, screwdriver, soldering iron, and solder.
2
Modern electronic components are small (in case you hadn't noticed) and
values marked on the part are often difficult to see. Another handy tool for
your bench will be a good magnifying glass. Also use the magnifier to
examine each solder joint as it is made to make sure that is doesn't have
any of the problems in the SOLDERING section which follows.
SOLDERING
Select a soldering iron with a small tip and a power rating of not more than
35 watts. Soldering guns are completely unacceptable for assembling
solid-state equipment because the large magnetic field they generate can
damage components.
Use only a high quality electronic solder. Your kit is compatible with leadfree and/or tin-lead flux-core solders made especially for electronic
assembly. Plumbing solder will destroy your kit with its acid core. Jewelry
solder (silver solder) will destroy your kit with its high working heat.
Neither is for electronics work.
A proper solder joint has just enough solder to cover the soldering pad and
about 1/16-inch of the lead passing through it.
There are two improper connections to be aware of: Using too little solder
will sometimes result in a connection which appears to be soldered when
actually there is a thin layer of flux insulating the component lead from the
solder bead. This situation can be cured by reheating the joint and
applying more solder.
Too much solder may produce a conducting bridge of excess solder
between adjacent pads causing a short-circuit. Continued feeding of
solder into a hot joint can result in accumulation on the underside of the
board and may cause bridges or impede the action of mechanical
components. If you see this, position the board above the iron tip and the
excess will flow to the tip.
Use care when mounting all components. Never force a component into
place.
3
CONTROLS AND CONNECTORS
Controls and connectors will be installed on the top side of the
board with the placement designators as shown in the illustration
to the right.
Miniature phone connectors referenced as “stereo phone jacks”
in the manual parts list are specified below with the
contact/terminal names, Tip, Ring and Sleeve (TRS) and are
labeled on the board and schematic as such.
The potentiometers have tabs extending from their body for
stability. They have a snap-fit to the board. Align the tabs and
pins with their holes and press them into place. There is no need
to bend the tabs or terminals.
To ensure the best alignment with these parts with the front panel,
begin by soldering only one of the multiple terminals associated
with each of the following parts as it is installed. Then, if a part is
tilted or crooked, it is only a matter of reheating the joint as the
part is aligned.
Match the tab of the polarized power connector with the
corresponding board marking.
DESIG.
DESC.
MARKING
(
(
(
(
(
TRS socket, c.c.
TRS socket
TRS socket
TRS socket
100K ohm
potentiometer, linear
1M ohm
potentiometer, audio
Slide Switch
Header
4 terminals
3 terminals
3 terminals
3 terminals
)
)
)
)
)
J1
J2
J3
J4
P1
( ) P2
( ) SW1
( ) PWR1
B100K
A1M
4
CAPACITORS
Install the non-polarized polyester capacitor. Either lead can go
in either hole. Locations are provided for optional, time constant
altering capacitors at the Cs 12, 13 and 15 designations.
Do not install these parts for standard applications.
( ) C3
0.01uF
103, 10n, 10n6J3
Polyester capacitor
RESISTORS
There is a designation for a fixed resistor, R16, on the board:
however, it is an option made available for instances in which
a substitution is made for the indicator LED. Do not install a
part here for standard applications.
Shorter leg
(cathode) this side
LED
The legs of the LED will be bent at a right angle so when
it is installed, it will project through a hole on the front panel.
This bend is about 1/8” (2-3mm) from the back of the part,
downwards with the shorter (marking cathode) leg to the
right as viewed from the rear. Installation of this LED is a
three-step process: First the LED is inserted in its holes on
on the board, next the board is mounted to the panel with the
LED positioned in its panel hole, and finally the joints for the
LED legs are soldered.
( ) LED1
Yellow T1 LED (temporary placement)
5
LED (light emitting diode)
COMPLETION
The front panel is used for mounting the module in a rack system or cabinet. Complete
the module assembly by mounting the 9752 PCB sub-assembly to the front panel as
follows:
Referring to Fig. 1A of the illustration supplement, use the knurled phone jack nuts to
secure the sub-assembly to the front panel. Check for clearance of the potentiometer
shafts to ensure they rotate freely. Finger-tighten the phone jack nuts and then use the
tips of the diagonal cutters to give them another quarter of a turn or so.
Complete the soldering of all multi-terminal parts. Take care the solder doesn't run
through to the opposite side of the board when soldering the mounting tabs. With
practice, it is possible to flow solder to cover the opening; otherwise, just flow a bit to
secure the tab to the pad ring.
Cut a 3/8" (10mm) long shim sleeve for each pot from the length of polyethylene sleeve
provided. Set the shafts fully counter-clockwise, slip the shims over the pot control
shafts, put the knob in place with the pointer aligned to about a 7:00 setting, and use a
small screwdriver to tighten the set-screw just enough that it grips.
Solder each LED leg on the bottom side of the board and clip any excess at the top of the
joint.
( ) LED1
Yellow T1 LED
6
POWERING AND TESTING
Power to the circuit is via a four-circuit, dual-polarity DC power supply. A power
connector cable matches the header for connection with one of the PAiA 977x supplies at
15v or more. Connect the circuit labeled (+) to the positive DC source (V+), the circuit
labeled (-) to the negative DC source (V-), the circuit labeled (G) to the power ground (G),
and the circuit labeled (SG) to the signal ground (SG). For other supplies without
separate signal and power grounds, use two wires to join the two grounds (G and SG) to
the one ground (aka GND, 0VDC or common) at the supply.
Before applying power, check again, to be sure the wiring for the two DC polarities and
that the polarized 4ckt connectors are as intended (see Fig.1B).
Use two-circuit, Tip-Sleeve (TS or mono), cords for patching in or out of the Sample and
Hold when connecting with external devices. Within a 9700-series system, either single
conductor (Tip-only), or TS cords may be used. If this seems confusing, remember that a
regular mono cable will always work for most home studios. PAiA equipment allows tiponly connections for professional applications where star grounding is required.
Test operation by inputting a 0-10V Noise Source such as the 9751 or some other
periodic signal such as an LFO or VCO to the Sample Input and patching the Output
from this section to a VCO CV input so the control to the VCO can be heard. There
should be a change controllable with the s/h Rate control, Output Offset control and
Gate/Sample switch settings. Note that as the Offset is adjusted for a more positive CV
output range, the glow will vary more brightly. Offset adjustment helps match the output
range attained for a range of input signal sources which don't necessarily have to be a full
10V range (or DC, ie 0 to +10). Patching the Ctl Out, a copy of the sampling over to
another devices trigger or clock input should elicit an action synchronized to the s/h
Output. An external trigger or clock can be substituted for the internal one by making a
patch into the Ctl In.
7
Noise Source, VCO, LFO or
other
varying, periodic voltage.
CV output, proportional to the
sampled or gated input signal
voltage. A random CV with noise
as the input.
Select an instantaneous,
Sample, or a framed, Gate, copy
of the input voltage appearing
as CV output.
External trigger or clock as
substitute for the internal
rate control (direct clock or
positive triggering).
Output of the sample rate Clock,
or, a pass-through of the
externally applied events.
8
Notes
DNI marking is Do Not Install note to manufacturer. These are designations where
optional capacitors may be installed, parallel-connecting with capacitors associated with
time constants: Cs1/12, 4/13 and 5/15.
Resistor R16 may be installed to parallel or replace on-board resistor R13 to match the
current flow for a substitute LED (subtract the LED voltage from 10v and divide this result
by the current (ie 0.01) for the resistance value).
Mounting holes are provided on the board for custom applications.
This first run of boards has some factory cuts/ rewires of connections from the Sample/Track
switch to reflect the panel graphics.
A 100K resistor replaces the 1K surface mounted resistor at the R4 designation and a 220nF
capacitor is installed at the C15 designation. These changes move the clock rate from a very
fast to moderate range of control.
9
DESIGN ANALYSIS
The heart of the sample and hold module is based around the LF398 IC. Samples are
taken from an input on Pin 3 when the (not)SH pin is pulled low and are stored in
capacitor C3. When the (not)SH pin is pulled high, the sample is output from Pin 5 into
U1A and U1B which provide output offset scaling as well as driving the S&H LED through
U1D.
The (not)S&H pin is connected to switch SW1, which selects between sample-and-hold
and track-and-hold operation. S&H operation is driven from the U1C square wave
oscillator, transistor switch T1 and monostable multivibrator. The oscillator output is
normally connected to the T1 switch through the closed circuit jack, J1. The transistor
circuit then drives the monostable multivibrator which limits the pulse width of the trigger
signal to about 47uS. If an external signal is plugged into J1, the oscillator is taken out of
the circuit. T1 switches at about 1.5V minimum, so just about any signal can be used to
control the sample and hold. When in trigger-and-hold mode, T1 and the 4538 are
bypassed and the S&H IC is connected directly to the J1 input signal. The second 4538
provides a pulse train output in sync with the transistor switching.
9752 Test Point Data
TP1
+12 VDC
TP5
Complement of Internal Clock
TP2
-12 VDC
TP6
LED Voltage
TP3
0 VDC
TP7
CV Output
TP4
Internal Clock
9752 Power Requirements
Voltage
Current
+15 VDC
21.0 mA
-15 VDC
33.0 mA
10
9752 Parts List
Please check the parts against this list. As you locate a part type and verify the
quantity (and mounting hardware -- if required) check it off in the space provided.
Because we have introduced surface-mount parts with these kits, we are providing the
printed circuit card as a sub-assembly with the surface-mount parts already in place.
Also, we want to make you aware that we are using both linear- and audio-taper
potentiometers in some of the modules. They are marked differently so we are asking
that you check carefully.
If anything is missing please notify PAiA at [email protected] or by phone at (405)
340-6300, fax (405) 340-6378.
Quan
Description
Ref Des
Marking
( )
1
9752 PCB Sub-assembly, Sample and Hold
( )
1
9752 Front Panel, Sample and Hold
( )
1
100K ohm Potentiometer, 9 mm Snap-In, Linear
P1
B100K
( )
1
1M ohm Potentiometer, 9 mm Snap-In, Audio
P2
A1M
( )
3
Phone Jack, Stereo, 3.5mm
J2, J3, J4
( )
1
Phone Jack, Stereo, 3.5mm, w/switch
J1
( )
1
Switch, Slide, DPDT, RA, PCB Mount
SW1
( )
2
Knob, Set Screw
( )
1
Shim, Knob, Polyethylene Sleeve
( )
1
.01uF, 63V Capacitor, Metalized Polyester Film, Radial
C3
( )
1
LED, Yellow Diffused, Through-hole
LED1
( )
1
Header, Vertical, 1row, 4pin
PWR1
( )
1
Cable Assembly, Power, 4-wire
( )
2
Screw, Self tap, #4 x 3/8, Pan Head Phillips, Black Oxide
11
10nJ63
9752 Sample and Hold
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